EP1197407A1 - Verfahren und vorrichtung zum wischen - Google Patents

Verfahren und vorrichtung zum wischen Download PDF

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Publication number
EP1197407A1
EP1197407A1 EP00931558A EP00931558A EP1197407A1 EP 1197407 A1 EP1197407 A1 EP 1197407A1 EP 00931558 A EP00931558 A EP 00931558A EP 00931558 A EP00931558 A EP 00931558A EP 1197407 A1 EP1197407 A1 EP 1197407A1
Authority
EP
European Patent Office
Prior art keywords
wiper
rocking
way rocking
formula
way
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP00931558A
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English (en)
French (fr)
Other versions
EP1197407A4 (de
Inventor
Toshio Murakami
Takashi Murakami
Kazuhiro Murakami
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Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to EP07002572A priority Critical patent/EP1777130A1/de
Publication of EP1197407A1 publication Critical patent/EP1197407A1/de
Publication of EP1197407A4 publication Critical patent/EP1197407A4/de
Withdrawn legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/06Wipers or the like, e.g. scrapers characterised by the drive
    • B60S1/16Means for transmitting drive
    • B60S1/18Means for transmitting drive mechanically
    • B60S1/24Means for transmitting drive mechanically by rotary cranks
    • B60S1/245Means for transmitting drive mechanically by rotary cranks with particular rod arrangements between the motor driven axle and the wiper arm axle
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/06Wipers or the like, e.g. scrapers characterised by the drive
    • B60S1/16Means for transmitting drive
    • B60S1/18Means for transmitting drive mechanically
    • B60S1/26Means for transmitting drive mechanically by toothed gearing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/28Wipers or the like, e.g. scrapers characterised by a plurality of wipers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/32Wipers or the like, e.g. scrapers characterised by constructional features of wiper blade arms or blades
    • B60S1/34Wiper arms; Mountings therefor
    • B60S1/3402Wiper arms; Mountings therefor with means for obtaining particular wiping patterns
    • B60S1/3406Wiper arms; Mountings therefor with means for obtaining particular wiping patterns the wiper blades being rotated with respect to the wiper arms around an axis perpendicular to the wiped field
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60SSERVICING, CLEANING, REPAIRING, SUPPORTING, LIFTING, OR MANOEUVRING OF VEHICLES, NOT OTHERWISE PROVIDED FOR
    • B60S1/00Cleaning of vehicles
    • B60S1/02Cleaning windscreens, windows or optical devices
    • B60S1/04Wipers or the like, e.g. scrapers
    • B60S1/44Wipers or the like, e.g. scrapers the wiper blades having other than swinging movement, e.g. rotary

Definitions

  • This invention relates to the wiper methods, such as window glass for a car, a train, a ship, an airplane, or other vehicles, and the equipment of those.
  • wiper equipment is known as equipment for carrying out eradication removal of rain, snow or dirt, etc. from the window glass in vehicles etc.
  • the rain strength i.e., so-called rain intensity is classified into the following eight stages according to the precipitation per hour.
  • the wiper equipment used for the car etc. is generally a both-way common rocking formula wiper, and to usual rain for less than 50mm of precipitation, it can wipe away window glass with a sufficient function, and can secure a good field of view.
  • the violent rain which falls like a waterfall is often generated, in connection with passage of a low pressure, the circumference of a seasonal rain front or an autumnal rain front, and the tropical cyclones (a typhoon, hurricane, cyclone, etc.), or as Toast in the Torrid Zone and a subtropical district. It is one of the basic functions of a car etc. to secure a driver's field of view, and "reservation of a field of view” is requirements indispensable to prevent a traffic accident, to raise safety and to removes a driver's uneasiness under any unfavorable conditions.
  • the rotation formula window wiper that rotates a eradication pestle at high speed is indicated in a Tokkoushou 47-165 official report
  • the rotation formula window cleaner of which a half of the eradication object to rotate is on a glass side and other half is located in a bonnet is indicated in Tokkoushou 48-13019 and Tokkoushou 48-42142 official reports
  • the rotation rocking combined use formula window glass wiper which carries out rocking movement at right and left while rotating is indicated in a Tokkoushou 47-21043 official report
  • the window wiper that rotates a brush eradication child is indicated in Tokkoushou 50-24502 and Tokkoushou 50-39293 official reports
  • the rotation formula window cleaner that makes an eradication object go up and down is indicated in a Tokkouhei 3-60698 official report
  • the rotation formula window cleaner which gave the delay angle so that the eradication object of the right and left which carry out rotation eradication might not carry out mutual interference is indicated in a Tokk
  • a compressed air injection formula wiper for example, automobile windshield protection equipment which forms air curtain is indicated in a Tokkaishou 48-15239 official report, the air wiper which spouts compressed air is indicated in a Tokkoushou 52-24293 official report, the air wiper for cars which forms double air curtain with pressurization air is indicated in Tokkouhei 01-50619 and Tokkouhei 01-50620 official reports, the air injection formula wiper which forms a high-speed jet stream film one after another is indicated in a Tokkaihei 03-248948 official report, raindrop removal equipment from which a both-way rocking formula wiper and a compressed air injection formula wiper are used together, and the raindrop which is not wiped away according to a both-way rocking formula wiper is removed by air injection is indicated in a Tokkaihei 04-90948 official report, the air wiper for vehicles which forms two or more air curtain by compressed air injection is indicated in a Tokkaihei 06-156204 official report, the air wiper
  • the both-way rocking formula wiper generally used has the big problem that when violent rain which precipitation is 50mm or more per hour, the limit of eradication capability is exceeded, Even though a both-way rocking formula wiper wipes away, rain violent falls on window glass one after another, the degree of fluoroscopy falls down, and a field of view cannot secure at all.
  • a rotation formula wiper although it is devised as equipment which replaces each with a both-way rocking formula wiper, a rotation formula wiper has the fault that eradication area becomes narrow inevitably compared with a both-way rocking formula wiper.
  • rotation formula wipers are not what meant the eradication effect over violent rain, and the proof of an effect opposed to precipitation in each of above-mentioned technology is not made further. Therefore, such technology can be called notional thing and generally a rotation formula wiper has not come to spread.
  • injection nozzle Namely, they injected compressed air of 0.5 MPa (5 Kg/cm 2 ) on window glass with 200-400 L/min of flux per nozzle or 20-30 m/sec (72-108 km/hr) of wind velocity using as injection nozzle; (1): The air duster which attached the nozzle with a caliber of 2.0mm, (2): The air duster which attached the nozzle which breathes out the output air of 3 times or more of input air, (3) and (4): The nozzle of the multi-orifice structure where 16 pieces of injection mouth are provided in parallel in a width of 47.5mm and which caliber is 0.8mm and 1.1mm [wind jet blow off nozzle manufactured by Spraying Systems Japan Inc.], and checked the effect of blowing away of rain.
  • This invention was made in view of the problem in such conventional technology, and the main purpose is securing a driver's field of view good, even when violent rain of the precipitation is 50mm or more.
  • This invention is to use two sorts of wipers, a both-way rocking formula wiper and a rotation formula wiper, and to make rain wiped away by operating the both-way rocking formula wiper at the time of the usual rainfall, and to make rain wiped away by operating a rotation formula wiper after stopping the above-mentioned both-way rocking formula wiper in a predetermined position, at the time of the rainfall exceeded in the limit of the eradication capability of the above-mentioned both-way rocking formula wiper.
  • window glass has complicated curvature
  • the eradication object of a moderate size required to secure a field of view and rotating at a predetermined rotation speed violent rain can be removed from window glass, the degree of fluoroscopy can be raised, and a field of view can be secured.
  • 100-500 mm is desirable, 100-400 mm is more desirable, and 100-300 mm is still more desirable.
  • rotation speed that should necessarily be just 80 or more rpm, 100-2000 rpm is desirable, 120-1500 rpm is more desirable, and 140-1000rpm is still more desirable.
  • this motor for a drive may be formed in wiper arm circles, may be formed in an engine room etc., and may be driven with means of communication, such as a transfer axis.
  • both a both-way rocking formula wiper and a rotation formula wiper are contained by the lower part of window glass, and if it is in the car which has a bonnet, they are contained in a bonnet.
  • the both-way rocking formula wiper is used in the case of usual rain, and only in the case of violent rain, the both-way rocking formula wiper is made to stop in the opened state, next the rotation formula wiper is made to rotate from the receipt position to the opened state and stop, and violent rain is removed by rotating the eradication object of a rotation formula wiper at high speed.
  • this invention uses the wiper which performs both-way rocking operation and rotation operation, makes rain wiped away by carrying out both-way rocking of the above-mentioned wiper at the time of the usual rainfall, by rotating the above-mentioned wiper at the time of the rainfall exceeding the limit of the eradication capability of the wiper by which both-way rocking is carried out.
  • the above-mentioned wiper is contained in the lower part of window glass, and if it is in the car which has a bonnet, it is contained in a bonnet.
  • connection of a drive means is intercepted, it is used as a both-way rocking formula wiper, and only in the case of violent rain, a wiper arm is made to stop where it is opened and violent rain is removed by canceling fixation of an eradication object, connecting a drive means and rotating an eradication object at high speed.
  • connection of a drive means is intercepted, and it is re-used as a both-way rocking formula wiper.
  • This motor for a drive may be provided in wiper arm portion, or may be provided in an engine room etc. and driven with means of communication, such as a transfer axis.
  • this invention using a both-way rocking formula wiper, at the time of the rainfall exceeding the limit of the eradication capability at the time of the usual rainfall, makes the number of times of both-way rocking of the above-mentioned both-way rocking formula wiper increase above 80 times / min. Moreover, this invention decreases its both-way rocking range at the same time it increases the number of times of both-way rocking of a both-way rocking formula wiper above 80 times / min.
  • a both-way rocking formula wiper has the motor for rotation, the slowdown machine for rotation, a linkage mechanism, a pivot axis, a wiper arm, and an eradication object as main composition parts for carrying out such a wiper method.
  • a rotation formula wiper has the motor for rotation, the slowdown machine for rotation, a linkage mechanism, a pivot axis, a wiper arm, the motor for a drive, the slowdown machine for a drive, a transfer axis, and an eradication object.
  • control of the receipt position of a wiper arm and the stop position in opening state is controlled by the automatic-stay position switch which is used with the conventional both-way rocking formula wiper and which was formed in the slowdown inside of a plane.
  • variable means of the number of times of both-way rocking
  • the method of carrying out variable of the slowdown ratio of the slowdown machine for rotation or the method of carrying out variable of the number of rotations of the motor for rotation are considerable.
  • the rotation speed of a direct-current motor is proportional to armature induce electromotive voltage, and in inverse proportion to field of magnetic flux.
  • the speed control has many Wiping methods, such as the electric child voltage controlling method, the field controlling method, and the resistance controlling method, (for example, (1) new edition motor practical use manual, written by Shigehiko Tuboshima, Teruzou Nakamura, Ohm-Sha Ltd. Issue, December 10, Heisei 8, (2) motor application circuit 101, written by Kinji Tanikoshi work, the Nikkan Kogyo Shimbun Ltd. issue, May 29, 1992).
  • the method of controlling electric child voltage is desirable.
  • the number of times of both-way rocking of the both-way rocking formula wiper currently generally used is 50 times / min at low speed (Lo) and 72 times / min at at high speed (Hi), and the number of times of eradication is 100 and 144 times / min and twice as many as it, respectively.
  • both-way rocking speed is the same as the conventional both-way rocking formula wiper
  • the increase in the number of times of both-way rocking is enabled by decreasing the both-way rocking range.
  • the both-way rocking range of the both-way rocking formula wiper currently generally used is about 90 degrees as a rotation angle, the number of times of both-way rocking of it is 72 times at a high speed (Hi), and the number of times of eradication is 144 times.
  • One is the method of providing the inversion switch of a motor in the slowdown machine of the conventional both-way rocking formula wiper, and repeating the inversion of a motor and carrying out both-way rocking within the limits of predetermined.
  • the second is the method of shortening distance between the fulcrums of the crank arm currently interlocked with the slowdown machine of the motor for rotation.
  • the third is the method of carrying out variable of the position of the connecting point of the link plate and link rod which have been connected with the pivot axis.
  • the rotation angle of a wiper arm can be made small by making variable distance of center of a pivot axis and center of the above-mentioned connecting point, and lengthening it.
  • Making variable of the position of the connecting point of a link plate and a link rod can be carried out by using various actuators; for example, electric cylinder, air cylinder, oil pressure cylinder, electromagnetism solenoid, motor drive, etc.
  • connection axis can be carried out variable by transmitting directly the both-way operation of an electric cylinder etc. to it, or transmitting the both-way operation of the arm connected with the slowdown machine of a motor, with a flexible cable etc.
  • this method has a problem that a quite large space is needed.
  • the fourth is the method of providing the reduction means for the amplitude of reciprocating movement at the middle of the link rod that connects the link plate and the crank arm.
  • the method for this for instance, there is the method of having a fulcrum in the central part of a thing like the seesaw laid down sideways, incorporating equipments which carries out amplitude into the right and left end of it, making the fulcrum of the central part variable, making the distance of the connecting point of a fulcrum and the rod of both ends variable, and reducing the amplitude of reciprocating movement.
  • the method of moving a rod in the direction of straight side by rotation of a cam plate can be mentioned, and the method of moving the rack currently fixed to the rod in the direction of straight side by rotation of the pinion can be also considerable, moreover, the various actuators above mentioned can be used.
  • a both-way rocking speed falls when a rotation angle is decreased. That is, the number of times of both-way rocking, that is carried out by one rotation of the crank arm and equivalent to one round trip of a link rod, doesn't change even when a rotation angle decreases, therefore, the both-way rocking speed falls down.
  • the reduction means of both-way rocking range and the variable means of the number of times of both-way rocking may be performed as a separate mechanism as mentioned above, they can also be carried out by bundling up as one mechanism combining transmissions, actuators, etc.
  • the reduction means of the both-way rocking range and the variable means of the number of times of both-way rocking are interlocked and changed at the same time, and they can be made variable as multi-steps according to the precipitation
  • This operation form shows the wiper equipment which has two sorts of wipers, a both-way rocking formula wiper and a rotation formula wiper.
  • a mark 1 is the wiper arm of the both-way rocking formula wiper, which undergoes the output of the motor for rotation which is not illustrated, and rotates in the predetermined range centering on the pivot axis 2, and the eradication object 3 is held at the tip part of this wiper arm 1.
  • a mark 4 is the wiper arm of the rotation formula wiper, which undergoes the output of the motor for rotation which is not illustrated, which rotates in the predetermined range centering on the pivot axis 5, and the eradication object 6 is held rotation-free at the tip part of this wiper arm 4.
  • the motor for a drive 7 as 1st drive means is formed in the hollow part of the above-mentioned wiper arm 4, and worm 8 is attached in the output axis of this motor 7 for a drive at one.
  • the worm wheel 9 attached rotation-free in the wiper arm 4 is meshed by this worm 8, and the umbrella gear 10 is fixed and provided on the same axle at one at this worm wheel 9, and the umbrella gear 11 which meshed with this umbrella gear 10 is fixed to the end of the power transfer axis 12 supported rotation-free in the above-mentioned wiper arm 4.
  • the umbrella gear 13 is attached in the other ends of the above-mentioned power transfer axis 12 on the same axle at one, and the umbrella gear 14 which meshes with this umbrella gear 13 is formed in the inside of the tip of the above-mentioned wiper arm 4, is attached in the maintenance means 16 for attaching the above-mentioned eradication object 6, and it is fixed to the axis of rotation 15 as an axis which takes the rotation lead in the above-mentioned eradication object 6.
  • the position stop switch which is not illustrated on the above-mentioned worm wheel 9 is formed, and the gear ratio is constituted so that one rotation of the worm wheel 9 may be equivalent to one rotation of the eradication object 6.
  • the above-mentioned eradication object 6 is moved to an eradication operation position, next, by driving the motor 7 for a drive, the eradication object 6 can be rotated at high speed, and eradication removal of the violent rain can be carried out from window glass W, and a field of view can be secured.
  • a mark 18 is an arm head, fitting connection of the pivot axis 19 is carried out in the basis end of this arm head 18, relative rotation of these arm heads 18 and pivot axes 19 around line of the pivot axis 19 is restrained by the key (or spline) 20, and, the arm head 18 and the pivot axis 19 have the structure where secession was prevented by the bag nut 21 screwed on the above-mentioned arm head 18.
  • the rivet which is not illustrated connects the hollow-like wiper arm 22 to the other ends of the above-mentioned arm head 18, so that rocking of the hollow-like wiper arm 22 in the vertical direction (direction which intersects perpendicularly with the field of window glass W mostly) may be attained.
  • the ball joint 23 is provided at the end of the above-mentioned pivot axis 19 contrary of a connection portion with the above-mentioned arm head 18, the motor (not illustrated) as 2nd drive means is connected with this ball joint 23, the above-mentioned pivot axis 19 is made to carry out both-way rotation of the predetermined range in response to the output of this motor, and by this, the arm head 18 and the wiper arm 22 are made to carry out both-way rocking on the window glass side which is not illustrated.
  • a mark 24 is for instance housing fixed to the body, the motor 25 for a drive as 2nd drive means is formed into this housing 24, and worm 26 is attached in the output axis of this motor 25 for a drive at one.
  • the umbrella gear 29 is fixed to the end located in the above-mentioned arm head 18 of the above-mentioned power transfer axis 28 by one, and the umbrella gear 30 which meshes with this umbrella gear 29 is being fixed to the end of the 2nd power transfer axis 31 with which it was equipped rotation-free in the above-mentioned arm head 18.
  • the 3rd power transfer axis 32 connected with the power transfer axis 31 of the above 2nd through the free joint 33 is provided in the position from the basis end to near the tip part of the above-mentioned wiper arm 22.
  • the connection position of this free joint 33 is on the same extension as center of the rivet, which connects the above-mentioned arm head 18 and the wiper arm 22 rocking-free, and which is not illustrated.
  • the 4th power transfer axis 34 is established rotation-free on the same axle of the 3rd power transfer axis 32 above mentioned, and between these 3rd power transfer axis 32 and the 4th power transfer axis 34, the clutch mechanism in which connection and interception of both are performed is established.
  • This clutch mechanism is constituted of the clutch ring 35 attached in the end part of the power transfer axis 34 of the above 4th sliding-free along the direction of an axis through the key (or spline) 37, and the electromagnetism solenoid 36 which meshes the clutch ring 35 by sliding to the key (or spline) 38 formed at the tip part of the 3rd power transfer axis 32 above-mentioned, and which cancels the mesh.
  • the umbrella gear 39 is fixed to one by the other ends of the 4th power transfer axis 34 above mentioned, and the umbrella gear 40 prepared as meshed this umbrella gear 39 is fixed to the axis of rotation 41 provided with by penetrating the tip part of the above-mentioned wiper arm 22.
  • a maintenance means 42 by which the eradication object 6 is attached is fixed to the end by the side of the exterior of this axis of rotation 41 rotation-free with the bolt nut 43.
  • the fixing non-truth circular-like board to restrain rotation of this axis of rotation 41, i.e., rotation of the eradication object 6 attached in this axis of rotation 41 through the above-mentioned maintenance means 42, and to fix this eradication object 6 to a predetermined position to the above-mentioned wiper arm 22, and the fixing pin 45 of the type of ⁇ which puts this fixing board 44 and fixes an eradication object are provided.
  • the operation rod R which constitutes clutch mechanism which is engaged to the above-mentioned clutch ring 35 in the direction of an axis in the state of rotation of the circumference of the axis is permitted, is connected with the movable child of the above-mentioned electromagnetism solenoid 36 at one, and the fixed pin 45, which restrains the rotation of the above-mentioned axis of rotation 41 by escaped to the above-mentioned fixing plate 44 when the operation rod R was slid by the above-mentioned electromagnetism solenoid 36, or which cancels the restraint, is provided at the tip of this operation rod R at one.
  • the position stop switch which is not illustrated is formed, and the gear ratio is further constituted so that one rotation of the worm wheel 27 may be equivalent to one rotation of an eradication object.
  • the clutch ring 35 is separated from the 3rd power transfer axis 32 by the operation of electromagnetism solenoid 36, connection on a motor 25 and the eradication object 6 is canceled, and by being made for the fixed pin 45 prepared in the operation rod R to be engaged to the fixing board 44, the eradication object 6 is fixed by the predetermined position relation to the wiper arm 22.
  • wiper equipment functions as a both-way rocking formula wiper, and rain eradication is performed.
  • the eradication object 6 can be rotated at high speed, er adication removal of the violent rain can be carried out from window glass, and a field of view can be secured.
  • both-way rocking formula wiper which is the 3rd operation form of this following invention is to make the number of times of both-way rocking per unit time increase, it is mentioned that, for instance, that is by making the number of rotations of a motor variable, however, the explanation based on the drawing as a case of the operation is omitted.
  • Fig. 4 is the whole outline view and Fig. 5 - 6 are sectional views showing the adjustment means of the both-way rocking range in a link plate part.
  • Fig. 7 - 13 are the plane views and sectional views showing the adjustment means of the both-way rocking range in a link rod part.
  • Marks 46a and 46b are the wiper arms of the both-way rocking formula wiper which rotates the predetermined range centering on the pivot axes 47a and 47b, and the eradication objects 48a and 48b are held at the tip part of these wiper arms 46a and 46b.
  • the link plate 49 is attached in above-mentioned pivot axis 47a rotation-free, the end of the link rod 50 is connected with this link plate 49 rotation-free, the other ends of the link rod 50 are connected rotation-free with the link plate 51 attached in the above-mentioned pivot axis 47b rotation-free, the link rod 52 made to carry out both-way movement by the motor 54 as a drive means is connected with this link plate 51.
  • the long hole L formed along the direction which keeps away from pivot axis 47b which takes the rotation lead in the above-mentioned link plate 51 is formed in the connecting point with the above-mentioned link rod 52 of the above-mentioned link plate 51, the end part of this link rod 52 is made to carry out relative movement from A positions close to the above-mentioned pivot axis 47b to B positions estranged most by connecting the end part of the above-mentioned link rod 52 with this long hole L slidable.
  • a rotation angle of the above-mentioned link plate 51 i.e., the moving range of eradication object 48a and 48b, is made to change by changing the distance between the above-mentioned connecting point and pivot axis 47b which is the center of rotation of the link plate 51.
  • the other ends of the above-mentioned link rod 52 are connected with the crank arm 53 by which a rotation drive is carried out by the above-mentioned motor 54, and this crank arm 53 is connected to the above-mentioned motor 54 through the slowdown mechanism which consists of worm which is not illustrated, a worm wheel, etc.
  • the rotation speed of a motor 54 is set up so that the control device 55 may control it.
  • a change of the position of the connecting point of the above-mentioned link plate 51 and the link rod 52 is made by the operation of the electric cylinder 56 infixed between the above-mentioned link plate 51 and the end part of the link rod 52 as shown in Fig. 5, and it is set up so that a position change may be made, from point A to point B, or from point B to point A.
  • the position of the connecting point of the above-mentioned link plate 51 and the link rod 52 changes from point A to point B, or from point B to point A, by making the above-mentioned rocking arm 58 move reciprocately in the range of a predetermined angle by normal rotation and an inversion of a motor 57, and making this reciprocating movement transmit to the flexible cable 59.
  • Marks 47a and 47b are pivot axes, the link plates 49 and 51 with which a wiper arm is fixed are connected with these pivot axes 47a and 47b rotation-free, these link plates 49 and 51 are connected with the link rod 50, and the link plate 51 is connected with the link rod 52.
  • This link rod 52 is connected with the rod 101 which changes the reciprocating-movement range of eradication object 48a and 48b through the connection axis 102.
  • the above-mentioned rod 101 is attached rotation-free centering on an axis 103, the other end is connected with the rod 105 through the connection axis 104, the long hole L which met in the length direction is formed in the above-mentioned rod 101, and it is set up so that a rod 101 slides along the above-mentioned long hole L and the rocking center position set up with the above-mentioned axis 103 becomes variable from point C to point D or from point D to point C. That is, its mechanism is so that the distance of a fulcrum and the connection axis of both ends is valuable.
  • the end part of the above-mentioned rod 105 is connected with the end part of other rods 107, and further, while this rod 107 is attached rotation-free centering on the axis 106, the other end is connected with the end part of the link rod 108.
  • This cam plate 110 is fixed to the above-mentioned axis 103 on the same axle while the swirl-like cam slot F is formed on it and connected with the motor 111 through the worm wheel 113 currently fixed to this axis 103 and worm 112 meshed with the worm wheel 113, and the above-mentioned axis 109 is made to fit in sliding-free by the above-mentioned cam slot F which is formed on this cam plate 110.
  • the rocking angle of the above-mentioned link plates 49 and 51 i.e., the rocking range of eradication objects 48a and 48b, is changed by changing the rocking center position of the rod 101.
  • the position stop switch which is not illustrated is formed in the worm wheel 113, and it is set up so that the cam plate 110 may rotate to a predetermined position in the clockwise or counterclockwise direction by normal rotation and inversion of a motor.
  • This structure replaces with the cam plate 110 and axis 109 which were mentioned above, and a rack and pinion are used for them.
  • this is composed so that, while rack 114 is formed in the above-mentioned rod 101, as this rack 114 is surrounded, casing K is attached in the length direction of the above-mentioned rod 101 sliding-free, the above-mentioned axis 103 penetrates and is attached in this casing K possible to rotate, and pinion 115 which is meshed by the above-mentioned rack 114 is formed on the axis 103.
  • the worm wheel 118 is fixed to one by the above-mentioned axis 103, worm 117 gears on this worm wheel 118, the motor 116 is further connected with this worm 117, and the rocking center of this rod 101 is changed from point D to point C or from point C to point D by moving a rack 114, i.e., a rod 101, in the direction of straight side with rotation of an axis 103.
  • the position stop switch which is not illustrated is formed in the worm wheel 118, and it has set up so that a rack 114 may slide by normal rotation and inversion of a motor 116.
  • This structure replaces with the cam plate 110 of the shape of a swirl mentioned above, and the circle cam 121 is used for it.
  • the composition is so that, the circle cam 121 is attached in the above-mentioned axis 103 at one and arranges so that a predetermined interval to the above-mentioned rod 101 and may be made to set and superimpose, a pair of support axes 119 and 120 parallel to the above-mentioned axis 103 are protruded on a position which puts the above-mentioned circle cam 121 of the above-mentioned rod 101, cam follower 122 and 123 currently contacted to the cam side of the above-mentioned circle cam 121 are attached rotation-free in the tip part of these support axes 119 and 120, and the spring 125 for making each above-mentioned cam follower 122 and 123 contact in elasticity to the above-mentioned cam side is formed between each above-mentioned support axis 119 and 120 and the above-mentioned axes 103.
  • the position stop switch which is not illustrated is formed in the worm wheel 118, and the above-mentioned circle cam 121 is made to be rotated to a predetermined position by the right inversion of a motor 116.
  • the both-way rocking position of eradicati on object 48a and 48b in the enforcement form of the above 4t h can be shifted in the direction of a field of window glass i n the state where the eradication range was maintained, by sh ifting the connection position B of the above-mentioned link rod 52 and the link plate 51 to the circumference of the abov e-mentioned pivot axis 47b.
  • an eradication position can be shifted to a driver's seat side by shifting the above-mentioned connection position B clockwise in Fig. 4.
  • the eradication position mentioned above can be shifted to a driver's seat side by considering as the long hole L2 which made the long hole L incline to the line which ties the connection axis 102 and the connection axis 104 as chain line shows.
  • the nozzle for artificial rainmaking was prepared in the position about 2m above ground, the hose was connected to this, tap water was sprayed on the window glass of a car, and rainmaking was made to fall.
  • a nozzle attaches a micro screen with a caliber of 0.25mm, and it was made to come down using a shower-like nozzle [the Takagi nozzle six P], making the rate of a opening adjust and rock.
  • the container of 180mm of diameters of inner received the artificial rain which falls on the window glass of a car, the precipitation (ml / min) was measured with the graduated cylinder, and it converted into the precipitation (mm/h).
  • the number of rotations (rpm) of an eradication object was measured using the rotation meter [manufactured by Yokogawa Electric Instruments Inc.] of a non-contacting formula.
  • the compressed air of 0.5MPa (5 kg/cm 2 ) was injected on window glass by flux about 200 L/min using the air duster with a caliber of 2.0mm, and the influence to the degree of fluoroscopy was evaluated.
  • the wind velocity (m/sec) of the field where an artificial wind hits window glass was measured using the anemometer [Anemomaster manufactured by Japanese Science Industry Inc.].
  • both-way rocking formula wiper of a car, it evaluates about the relation of the number of times of both-way rocking, precipitation, and the degree of fluoroscopy, and the result is shown in Fig. 14.
  • the trial production equipment of a rotation formula wiper is attached in the window glass of a car, it evaluates on it about the relation of the number of rotations of a wiper braid, precipitation, and the degree of fluoroscopy, and the result is shown in it in Fig. 15 and 16.
  • a motor for a drive of exchange 100V and 40W, 1500rpm was used, and the slowdown machine was attached in this, the synchronization pulley was fixed to the output axis of this slowdown machine, and the wiper braid was rotated with the synchronization belt. Change of number of rotations was performed by changing the size of each synchronization pulley and adjusting voltage using a single volume sliding transformer.
  • the position of the connection axis of a link plate and a link rod is made long 2.4 times, furthermore, two batteries of 12V are connected in series, it is made the voltage of 24V, and a wiper motor is rotated, It evaluates about the relation of the number of times of both-way rocking, precipitation, and the degree of fluoroscopy, the result is shown in Fig. 17.
  • connection axis of a link plate and a link rod carried out cutting removal of the partition of the storage space of a wiper linkage mechanism, and an engine room by the grinder, fixed the auxiliary link plate to the link plate with the bolt nut, and it prepared the connection axis in one 2.4 times the position of this so that a both-way rocking angle might turn into about 45 degrees at this auxiliary link plate.
  • the unevenly eradication is influenced by the size of a wiper braid, it is not produced in 300mm even when it rotates at high speed, however in 500mm, the unevenly eradication arises in a circumference and it becomes larger as it rotates at high speed.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Transmission Devices (AREA)
EP00931558A 1999-05-25 2000-05-25 Verfahren und vorrichtung zum wischen Withdrawn EP1197407A4 (de)

Priority Applications (1)

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EP07002572A EP1777130A1 (de) 1999-05-25 2000-05-25 Verfahren und Vorrichtung zum Wischen

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JP14547499 1999-05-25
JP14547499 1999-05-25
PCT/JP2000/003354 WO2000071397A1 (fr) 1999-05-25 2000-05-25 Procede et dispositif d'essuyage

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EP (2) EP1197407A4 (de)
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AU (1) AU4949300A (de)
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WO (1) WO2000071397A1 (de)

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EP3181415A1 (de) * 2015-12-18 2017-06-21 Goodrich Aerospace Services Private Limited Variabler pfeilwinkelmotorantrieb
CN108657126A (zh) * 2018-07-03 2018-10-16 周启城 一种新型雨刮

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DE10261926A1 (de) * 2002-12-23 2004-07-01 Robert Bosch Gmbh Antriebsordnung einer Wischvorrichtung für Scheiben von Kraftfahrzeugen
DE102005013178A1 (de) 2005-03-22 2006-09-28 Obstfelder, Sigrid Scheibenwischer
JP6349120B2 (ja) 2014-03-27 2018-06-27 株式会社ミツバ ワイパシステム制御方法及びワイパシステム制御装置
US10589726B1 (en) * 2017-10-16 2020-03-17 Waymo Llc Wiper timing and geometry to minimize sensor occlusion
US11364878B2 (en) * 2020-06-30 2022-06-21 Honda Motor Co., Ltd. Dual action wiper system

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EP3181415A1 (de) * 2015-12-18 2017-06-21 Goodrich Aerospace Services Private Limited Variabler pfeilwinkelmotorantrieb
US10106127B2 (en) 2015-12-18 2018-10-23 Goodrich Aerospace Services Private Limited Wiper system with variable sweep angle motor drive
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CN108657126A (zh) * 2018-07-03 2018-10-16 周启城 一种新型雨刮

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Publication number Publication date
AU4949300A (en) 2000-12-12
EP1777130A1 (de) 2007-04-25
EP1197407A4 (de) 2004-12-01
JP4000245B2 (ja) 2007-10-31
CA2375024A1 (en) 2000-11-30
US20050217699A1 (en) 2005-10-06
WO2000071397A1 (fr) 2000-11-30

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